학술논문
Adapting to Evasive Tactics through Resilient Adversarial Machine Learning for Malware Detection
Document Type
Conference
Author
Source
2024 11th International Conference on Computing for Sustainable Global Development (INDIACom) Computing for Sustainable Global Development (INDIACom), 2024 11th International Conference on. :1735-1741 Feb, 2024
Subject
Language
Abstract
This paper presents the Adaptive Resilience-based Convolutional Network (ARCNet), a sophisticated machine learning framework specifically designed to detect advanced, evasive malware. ARCNet combines convolutional and recurrent neural networks, making it highly adaptable to changing cyber threats. Its core components, the Adversarial Learning Module (ALM), Predictive Analysis Engine (PAE), and Dynamic Adaptation System (DAS), significantly boost its detection power. Tests using a synthetic dataset show ARCNet’s superiority over traditional models like the Support Vector Machine (SVM). It achieved 95.2% accuracy under normal conditions (compared to SVM’s 89.4%) and maintained 92.5% accuracy even during adversarial attacks (against SVM’s 80.3%). Notably, ARCNet’s detection rates improved from 78.5% to 86.7% in five months after integrating the DAS. These results confirm ARCNet’s efficiency in tackling complex malware challenges, contributing greatly to cybersecurity. The study underscores the importance of evolving and enhancing machine learning methods to keep pace with the rapidly changing landscape of cyber threats.